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了解慢病毒辅助蛋白Vpr和Vpx对DCAF1的分子操纵。

Understanding the molecular manipulation of DCAF1 by the lentiviral accessory proteins Vpr and Vpx.

作者信息

Cassiday Patrick A, DePaula-Silva Ana Beatriz, Chumley Jeffrey, Ward Jeffrey, Barker Edward, Planelles Vicente

机构信息

Division of Microbiology and Immunology, Department of Pathology, University of Utah School of Medicine, 15 North Medical Drive East #2100, Salt Lake City, UT 84112, USA.

出版信息

Virology. 2015 Feb;476:19-25. doi: 10.1016/j.virol.2014.11.024. Epub 2014 Dec 11.

DOI:10.1016/j.virol.2014.11.024
PMID:25499532
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4323848/
Abstract

Vpr and Vpx are primate lentivirus proteins that manipulate the cellular CRL4 ubiquitin ligase complex. While Vpr is common to all primate lentiviruses, Vpx is only encoded by HIV-2 and a limited range of SIVs. Although Vpr and Vpx share a high degree of homology they are known to induce markedly different effects in host cell biology through the recruitment of different substrates to CRL4. Here we explore the interaction of HIV-1 Vpr and SIVmac Vpx with the CRL4 substrate receptor DCAF1. Through mutational analysis of DCAF1 we demonstrate that although Vpr and Vpx share a highly similar DCAF1-binding motif, they interact with a different set of residues in DCAF1. In addition, we show that Vpx recruits SAMHD1 through a protein-protein interface that includes interactions of SAMHD1 with both Vpx and DCAF1, as was first suggested in crystallography data by (Schwefel, D., Groom, H.C.T., Boucherit, V.C., Christodoulou, E., Walker, P.A., Stoye, J.P., Bishop, K.N., Taylor, I.A., 2014. Structural basis of lentiviral subversion of a cellular protein degradation pathway., Nature, 505, 234-238).

摘要

Vpr和Vpx是灵长类慢病毒蛋白,可操纵细胞CRL4泛素连接酶复合物。虽然Vpr存在于所有灵长类慢病毒中,但Vpx仅由HIV-2和有限种类的猴免疫缺陷病毒(SIV)编码。尽管Vpr和Vpx具有高度同源性,但已知它们通过招募不同的底物至CRL4,在宿主细胞生物学中诱导出明显不同的效应。在此,我们探究了HIV-1 Vpr和SIVmac Vpx与CRL4底物受体DCAF1的相互作用。通过对DCAF1的突变分析,我们证明,尽管Vpr和Vpx共享高度相似的DCAF1结合基序,但它们与DCAF1中的不同残基集相互作用。此外,正如(施韦费尔,D.,格鲁姆,H.C.T.,布谢里特,V.C.,克里斯托杜洛,E.,沃克,P.A.,斯托伊,J.P.,毕晓普,K.N.,泰勒,I.A.,2014年。慢病毒颠覆细胞蛋白质降解途径的结构基础。《自然》,505卷,234 - 238页)晶体学数据首次表明的那样,我们表明Vpx通过一个蛋白质 - 蛋白质界面招募SAMHD1,该界面包括SAMHD1与Vpx和DCAF1的相互作用。

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